#!/usr/bin/env python
#
# Licensed to the Apache Software Foundation (ASF) under one
# or more contributor license agreements.  See the NOTICE file
# distributed with this work for additional information
# regarding copyright ownership.  The ASF licenses this file
# to you under the Apache License, Version 2.0 (the
# "License"); you may not use this file except in compliance
# with the License.  You may obtain a copy of the License at
#
# http://www.apache.org/licenses/LICENSE-2.0
#
# Unless required by applicable law or agreed to in writing, software
# distributed under the License is distributed on an "AS IS" BASIS,
# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
# See the License for the specific language governing permissions and
# limitations under the License.

#
# Autogenerated by Thrift Compiler (0.19.0)
#
# DO NOT EDIT UNLESS YOU ARE SURE THAT YOU KNOW WHAT YOU ARE DOING
#
#  options string: py:utf8strings
#

from thrift.Thrift import TType, TMessageType, TFrozenDict, TException, TApplicationException
from thrift.protocol.TProtocol import TProtocolException
from thrift.TRecursive import fix_spec

import sys
import logging
from .ttypes import *
from thrift.Thrift import TProcessor
from thrift.transport import TTransport
all_structs = []


class Iface(object):
    def execute(self, functionName, funcArgs):
        """
        Parameters:
         - functionName
         - funcArgs

        """
        pass


class Client(Iface):
    def __init__(self, iprot, oprot=None):
        self._iprot = self._oprot = iprot
        if oprot is not None:
            self._oprot = oprot
        self._seqid = 0

    def execute(self, functionName, funcArgs):
        """
        Parameters:
         - functionName
         - funcArgs

        """
        self.send_execute(functionName, funcArgs)
        return self.recv_execute()

    def send_execute(self, functionName, funcArgs):
        self._oprot.writeMessageBegin('execute', TMessageType.CALL, self._seqid)
        args = execute_args()
        args.functionName = functionName
        args.funcArgs = funcArgs
        args.write(self._oprot)
        self._oprot.writeMessageEnd()
        self._oprot.trans.flush()

    def recv_execute(self):
        iprot = self._iprot
        (fname, mtype, rseqid) = iprot.readMessageBegin()
        if mtype == TMessageType.EXCEPTION:
            x = TApplicationException()
            x.read(iprot)
            iprot.readMessageEnd()
            raise x
        result = execute_result()
        result.read(iprot)
        iprot.readMessageEnd()
        if result.success is not None:
            return result.success
        if result.e is not None:
            raise result.e
        if result.aze is not None:
            raise result.aze
        raise TApplicationException(TApplicationException.MISSING_RESULT, "execute failed: unknown result")


class Processor(Iface, TProcessor):
    def __init__(self, handler):
        self._handler = handler
        self._processMap = {}
        self._processMap["execute"] = Processor.process_execute
        self._on_message_begin = None

    def on_message_begin(self, func):
        self._on_message_begin = func

    def process(self, iprot, oprot):
        (name, type, seqid) = iprot.readMessageBegin()
        if self._on_message_begin:
            self._on_message_begin(name, type, seqid)
        if name not in self._processMap:
            iprot.skip(TType.STRUCT)
            iprot.readMessageEnd()
            x = TApplicationException(TApplicationException.UNKNOWN_METHOD, 'Unknown function %s' % (name))
            oprot.writeMessageBegin(name, TMessageType.EXCEPTION, seqid)
            x.write(oprot)
            oprot.writeMessageEnd()
            oprot.trans.flush()
            return
        else:
            self._processMap[name](self, seqid, iprot, oprot)
        return True

    def process_execute(self, seqid, iprot, oprot):
        args = execute_args()
        args.read(iprot)
        iprot.readMessageEnd()
        result = execute_result()
        try:
            result.success = self._handler.execute(args.functionName, args.funcArgs)
            msg_type = TMessageType.REPLY
        except TTransport.TTransportException:
            raise
        except DRPCExecutionException as e:
            msg_type = TMessageType.REPLY
            result.e = e
        except AuthorizationException as aze:
            msg_type = TMessageType.REPLY
            result.aze = aze
        except TApplicationException as ex:
            logging.exception('TApplication exception in handler')
            msg_type = TMessageType.EXCEPTION
            result = ex
        except Exception:
            logging.exception('Unexpected exception in handler')
            msg_type = TMessageType.EXCEPTION
            result = TApplicationException(TApplicationException.INTERNAL_ERROR, 'Internal error')
        oprot.writeMessageBegin("execute", msg_type, seqid)
        result.write(oprot)
        oprot.writeMessageEnd()
        oprot.trans.flush()

# HELPER FUNCTIONS AND STRUCTURES


class execute_args(object):
    """
    Attributes:
     - functionName
     - funcArgs

    """


    def __init__(self, functionName=None, funcArgs=None,):
        self.functionName = functionName
        self.funcArgs = funcArgs

    def read(self, iprot):
        if iprot._fast_decode is not None and isinstance(iprot.trans, TTransport.CReadableTransport) and self.thrift_spec is not None:
            iprot._fast_decode(self, iprot, [self.__class__, self.thrift_spec])
            return
        iprot.readStructBegin()
        while True:
            (fname, ftype, fid) = iprot.readFieldBegin()
            if ftype == TType.STOP:
                break
            if fid == 1:
                if ftype == TType.STRING:
                    self.functionName = iprot.readString().decode('utf-8', errors='replace') if sys.version_info[0] == 2 else iprot.readString()
                else:
                    iprot.skip(ftype)
            elif fid == 2:
                if ftype == TType.STRING:
                    self.funcArgs = iprot.readString().decode('utf-8', errors='replace') if sys.version_info[0] == 2 else iprot.readString()
                else:
                    iprot.skip(ftype)
            else:
                iprot.skip(ftype)
            iprot.readFieldEnd()
        iprot.readStructEnd()

    def write(self, oprot):
        if oprot._fast_encode is not None and self.thrift_spec is not None:
            oprot.trans.write(oprot._fast_encode(self, [self.__class__, self.thrift_spec]))
            return
        oprot.writeStructBegin('execute_args')
        if self.functionName is not None:
            oprot.writeFieldBegin('functionName', TType.STRING, 1)
            oprot.writeString(self.functionName.encode('utf-8') if sys.version_info[0] == 2 else self.functionName)
            oprot.writeFieldEnd()
        if self.funcArgs is not None:
            oprot.writeFieldBegin('funcArgs', TType.STRING, 2)
            oprot.writeString(self.funcArgs.encode('utf-8') if sys.version_info[0] == 2 else self.funcArgs)
            oprot.writeFieldEnd()
        oprot.writeFieldStop()
        oprot.writeStructEnd()

    def validate(self):
        return

    def __repr__(self):
        L = ['%s=%r' % (key, value)
             for key, value in self.__dict__.items()]
        return '%s(%s)' % (self.__class__.__name__, ', '.join(L))

    def __eq__(self, other):
        return isinstance(other, self.__class__) and self.__dict__ == other.__dict__

    def __ne__(self, other):
        return not (self == other)
all_structs.append(execute_args)
execute_args.thrift_spec = (
    None,  # 0
    (1, TType.STRING, 'functionName', 'UTF8', None, ),  # 1
    (2, TType.STRING, 'funcArgs', 'UTF8', None, ),  # 2
)


class execute_result(object):
    """
    Attributes:
     - success
     - e
     - aze

    """


    def __init__(self, success=None, e=None, aze=None,):
        self.success = success
        self.e = e
        self.aze = aze

    def read(self, iprot):
        if iprot._fast_decode is not None and isinstance(iprot.trans, TTransport.CReadableTransport) and self.thrift_spec is not None:
            iprot._fast_decode(self, iprot, [self.__class__, self.thrift_spec])
            return
        iprot.readStructBegin()
        while True:
            (fname, ftype, fid) = iprot.readFieldBegin()
            if ftype == TType.STOP:
                break
            if fid == 0:
                if ftype == TType.STRING:
                    self.success = iprot.readString().decode('utf-8', errors='replace') if sys.version_info[0] == 2 else iprot.readString()
                else:
                    iprot.skip(ftype)
            elif fid == 1:
                if ftype == TType.STRUCT:
                    self.e = DRPCExecutionException.read(iprot)
                else:
                    iprot.skip(ftype)
            elif fid == 2:
                if ftype == TType.STRUCT:
                    self.aze = AuthorizationException.read(iprot)
                else:
                    iprot.skip(ftype)
            else:
                iprot.skip(ftype)
            iprot.readFieldEnd()
        iprot.readStructEnd()

    def write(self, oprot):
        if oprot._fast_encode is not None and self.thrift_spec is not None:
            oprot.trans.write(oprot._fast_encode(self, [self.__class__, self.thrift_spec]))
            return
        oprot.writeStructBegin('execute_result')
        if self.success is not None:
            oprot.writeFieldBegin('success', TType.STRING, 0)
            oprot.writeString(self.success.encode('utf-8') if sys.version_info[0] == 2 else self.success)
            oprot.writeFieldEnd()
        if self.e is not None:
            oprot.writeFieldBegin('e', TType.STRUCT, 1)
            self.e.write(oprot)
            oprot.writeFieldEnd()
        if self.aze is not None:
            oprot.writeFieldBegin('aze', TType.STRUCT, 2)
            self.aze.write(oprot)
            oprot.writeFieldEnd()
        oprot.writeFieldStop()
        oprot.writeStructEnd()

    def validate(self):
        return

    def __repr__(self):
        L = ['%s=%r' % (key, value)
             for key, value in self.__dict__.items()]
        return '%s(%s)' % (self.__class__.__name__, ', '.join(L))

    def __eq__(self, other):
        return isinstance(other, self.__class__) and self.__dict__ == other.__dict__

    def __ne__(self, other):
        return not (self == other)
all_structs.append(execute_result)
execute_result.thrift_spec = (
    (0, TType.STRING, 'success', 'UTF8', None, ),  # 0
    (1, TType.STRUCT, 'e', [DRPCExecutionException, None], None, ),  # 1
    (2, TType.STRUCT, 'aze', [AuthorizationException, None], None, ),  # 2
)
fix_spec(all_structs)
del all_structs
